As a torque activity, your Physics TA sets up the arrangement shown below. A uniform rod of mass mr = 143 g and length L = 100.0 cm is attached to the wall with a pin as shown. Cords are attached to the rod at the r1 = 10.0 cm and r2 = 90.0 cm mark, passed over pulleys, and masses of m1 = 286 g and m2 = 177 g are attached. Your TA asks you to determine the following. (a) The position r3 on the rod where you would suspend a mass  m3 = 200 g  in order to balance the rod and keep it horizontal if released from a horizontal position. In addition, for this case, what force (magnitude and direction) does the pin exert on the rod? Use standard angle notation to determine the direction of the force the pin exerts on the rod. Express the direction of the force the pin exerts on the rod as the angle ?F, measured with respect to the positive x-axis (counterclockwise is positive and clockwise is negative). r3 =   m Fp =   N ?F =   ° (b) Let's now remove the mass m3 and determine the new mass m4 you would need to suspend from the rod at the position  r4 = 20.0 cm  in order to balance the rod and keep it horizontal if released from a horizontal position. In addition, for this case, what force (magnitude and direction) does the pin exert on the rod? Express the direction of the force the pin exerts on the rod as the angle ?F, measured with respect to the positive x-axis (counterclockwise is positive and clockwise is negative). m4 =   kg Fp =   N ?F =   ° (c) Let's now remove the mass m4 and determine the mass m5 you would suspend from the rod in order to have a situation such that the pin does not exert a force on the rod and the location r5 from which you would suspend this mass in order to balance the rod and keep it horizontal if released from a horizontal position. m5 =   kg r5 =   m

icon
Related questions
Question

As a torque activity, your Physics TA sets up the arrangement shown below.

A uniform rod of mass mr = 143 g and length L = 100.0 cm is attached to the wall with a pin as shown. Cords are attached to the rod at the r1 = 10.0 cm and r2 = 90.0 cm mark, passed over pulleys, and masses of m1 = 286 g and m2 = 177 g are attached. Your TA asks you to determine the following.

(a) The position r3 on the rod where you would suspend a mass 
m3 = 200 g
 in order to balance the rod and keep it horizontal if released from a horizontal position. In addition, for this case, what force (magnitude and direction) does the pin exert on the rod? Use standard angle notation to determine the direction of the force the pin exerts on the rod. Express the direction of the force the pin exerts on the rod as the angle ?F, measured with respect to the positive x-axis (counterclockwise is positive and clockwise is negative).
r3 =   m
Fp =   N
?F =   °

(b) Let's now remove the mass m3 and determine the new mass m4 you would need to suspend from the rod at the position 
r4 = 20.0 cm
 in order to balance the rod and keep it horizontal if released from a horizontal position. In addition, for this case, what force (magnitude and direction) does the pin exert on the rod? Express the direction of the force the pin exerts on the rod as the angle ?F, measured with respect to the positive x-axis (counterclockwise is positive and clockwise is negative).
m4 =   kg
Fp =   N
?F =   °

(c) Let's now remove the mass m4 and determine the mass m5 you would suspend from the rod in order to have a situation such that the pin does not exert a force on the rod and the location r5 from which you would suspend this mass in order to balance the rod and keep it horizontal if released from a horizontal position.
m5 =   kg
r5 =   m
12
-カ→
72
Transcribed Image Text:12 -カ→ 72
Expert Solution
trending now

Trending now

This is a popular solution!

steps

Step by step

Solved in 2 steps with 3 images

Blurred answer
Similar questions